Department of Physiology and Biomedical Engineering, Mayo Clinic College of Medicine, 200 First St. SW, Rochester, MN 55902, U.S.A.Department of Neurology, Mayo Clinic College of Medicine, 200 First St. SW, Rochester, MN 55902, U.S.A.

Abstract

The crystal structure of a pentameric α7 ligand-binding domain chimaera with bound α-btx (α-bungarotoxin) showed that of the five conserved aromatic residues in α7, only Tyr184 in loop C of the ligand-binding site was required for high-affinity binding. To determine whether the contribution of Tyr184 depends on local residues, we generated mutations in an α7/5HT3A (5-hydroxytryptamine type 3A) receptor chimaera, individually and in pairs, and measured 125I-labelled α-btx binding. The results show that mutations of individual residues near Tyr184 do not affect α-btx affinity, but pairwise mutations decrease affinity in an energetically coupled manner. Kinetic measurements show that the affinity decreases arise through increases in the α-btx dissociation rate with little change in the association rate. Replacing loop C in α7 with loop C from the α-btx-insensitive α2 or α3 subunits abolishes high-affinity α-btx binding, but preserves acetylcholine-elicited single channel currents. However, in both the α2 and α3 construct, mutating either residue that flanks Tyr184 to its α7 counterpart restores high-affinity α-btx binding. Analogously, in α7, mutating both residues that flank Tyr184 to the α2 or α3 counterparts abolishes high-affinity α-btx binding. Thus interaction between Tyr184 and local residues contributes to high-affinity subtype-selective α-btx binding.

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